Education and Outreach News

Over the past six years, the iUTAH community has benefitted greatly from the graduate students that worked on the project. As part of their graduate training, these students engaged with faculty research mentors to grow their knowledge in ecohydrology, environmental engineering, socio-environmental science, and coupled modeling. While nearly 50 students have served this role across three research focus areas and the cyberinfrastructure team, we would like to take a moment to highlight the training successes of a few successful doctoral students who graduated this year.

Caleb Buahin graduated with a Ph.D. in Civil and Environmental Engineering from Utah State University. His current work as a post-doc at USU builds on his previous work using the HydroCouple software framework for more holistic assessment of water systems by allowing model developers to stitch disparate models together. He says that “beyond providing the fellowship to support my doctoral degree, iUTAH provided an arena where I was able collaborate and build professional relationships with researchers from diverse backgrounds.”

Taya Carothersgraduated with a Ph.D. in Environment and Society in the Quinney College of Natural Resources at USU. She will be moving to the Chicago area where she will be the Assistant Director of the International Office at Northwestern University starting in August. She still plans to be involved in local water-related issues by volunteer with Chicago River efforts or environmental justice organizations.

Kshitij “Kay” Parajuli graduated with a Ph.D. in Civil and Environmental Engineering. While at USU, Kay’s research focused on soil hydrology and evapotranspiration. He will be working with Scott Jones as a post-doc in the environmental soil physics lab, where he will use the findings of his work to improve water management at regional scale.

Yusuf Jameelgraduated from the University of Utah, winning the outstanding Ph.D. award from the department of Geology and Geophysics in recognition of his dissertation on Stable Isotope Mixing Models in Urban and Natural Environments. He is moving to Gainesville FL where he will start a post-doc position in August. While there, he will continue his work in hydrogeology, working on application of Bayesian methods in ecology and hydrology.

“Being part of iUTAH had been the best experience as a graduate student,” said Kshitij “Kay” Parajuli. “The involvement has opened greater prospects to connect with the interdisciplinary group of people including faculty researchers and stakeholders from across the state. It has been an incredible journey of being a student and a mentor with several opportunities to take part in communications and leadership trainings.”

These students, in addition to completing their own research, served as mentors to undergraduate students engaged in the iUTAH iFellows and Trainee programs. Congratulations to these and the other students who have graduated in the past few years and are now poised to help shape Utah's and the nation's water future.

iUTAH researcher Jackie Grant has been in the news for her work to create a community classroom out of the charred remains of the 2017 Brian Head fire site, which damaged more than 72,000 acres of Dixie National Forest and Bureau of Land Management land. Grant, a biology professor at Southern Utah University, received funding last year from the Bureau of Land Management’s Colorado Plateau Native Plant Program to collect seeds from native plants for research.

A media release provided by Utah Public Radio’s Kerry Bringhurst said that Grant is “working with citizen scientists to help restore the damaged land. Two SUU community education courses taught June 7-22 and July 30- Aug. 14 will give participants the opportunity to work with forest and land managers.” When asked about the program, Grant welcomed “the community to interact with the federal agencies and an educator, myself, to learn about plants and how we use them to restore the land after the fire."

The story goes on to add that, “the course also includes training for citizen scientists who want to contribute to a global database. 'And teach other scientists all over the world about the amazing diversity of plants and possibly some insects that we have down here in southern Utah.’”

The paper explains science outreach activities and lessons developed to teach high school students, university students and high school teachers about isotope hydrology and the water cycle. The approach connects common fruits to the global water cycle, offering examples through lecture, demonstration, and lab activities introduced at iUTAH’s Summer Research Institute. Materials were also evaluated through pre- and post- tests tied to learning objectives, as well as participant feedback surveys.

The method and ideas explored in this paper offer readers a solid approach to the ways that outreach materials can engage students in learning activities about how humans interact and find patterns in their environment through examining the water cycle.

Paper: Oerter, E., M. Malone, A. Putman, D. Drits-Esser, L. Stark, and G. Bowen. 2017. Every apple has a voice: using stable isotopes to teach about food sourcing and the water cycle. Hydrology and Earth System Sciences, 21:3799-3810. 10.5194/hess-21-3799-2017.

As part of the 2015 iFellows cohort, Long researched the effects of nutrients and pharmaceutical pollution on stream biofilms, later presenting this research at national conferences alongside Beth Ogata, Zach Aanderud, and Michelle Baker. Koontz said that “Long will graduate this May with a double major in biology and nutrition and a minor in chemistry. He will take the MCAT and start applying for medical schools this fall with the goal to study internal medicine. During his gap year, Long has plans for a post-baccalaureate program, which entails a year of intensive research at an R-1 institution.”

Utah State University recognized two past iFellows undergraduate researchers, Lindsay Capito, 2017, and Jesse Fleri, 2015. Capito was named Outstanding Senior of the Year for the Watershed Sciences Department. She plans to continue her education at USU as a graduate student, studying Didymosphenia geminata, also known as ‘Didymo’ or ‘rock snot,’ and a possible connection to glacier recession.

Also from the Quinney College of Natural Resources at USU, Jesse Fleri, graduated with Honors and was recognized with the Peak Prize: Undergraduate Researcher of the Year. The future looks wet for Fleri as he continues to pursue projects in aquatic and marine environments. He says “I am fascinated by changes happening over large spatial extents and really enjoy the complexities that inherently come with working in dynamic systems.” To this end, he will be moving to Canada later this summer to continue his studies as a graduate student funded by the University of British Columbia, and conduct research throughout the San Juan and Gulf Islands to understand how bottom-up and top-down trophic cascades are inhibiting the conservation and restoration of Garry Oak ecosystems.

Fleri says of his experience as an iFellow that it “taught me a lot about what I wanted out of an adviser, a lab, and a project. It was great being forced to completing a project over a single summer because you have to learn about all the stages of research. I learned that water chemistry was not a field I would want to pursue and that my interests were more biology or physics based but I couldn't have known that prior to that summer.”

The Bean Life Sciences Museum, located on the Brigham Young University campus, has partnered with iUTAH and the Natural History Museum of Utah to place an interactive display in the museum to help visitors learn about their local watershed. Based on a display developed by NHMU in 2015, the Bean Museum’s version allows visitors to see and interact with live data collected from the Provo River watershed.

The exhibit uses the iUTAH network of aquatic and climate sensor stations from GAMUT, which stands for “Gradients Along Mountain to Urban Transitions.” GAMUT sensor stations, located in three of Utah’s most populated watersheds: Red Butte Creek, Logan River, and Provo River, traverse the landscape from mountain to urban settings. Data from these stations are monitored and used for solving a wide range of water-related problems. From diagnostics and restoration of impaired urban rivers to modeling future water availability, the data help identify irregularities in Utah’s waterways.

Installed in February 2018, the display has been well received offering visitors the opportunity to explore the Provo River without leaving the comforts of a warm museum building. Visitors can become researchers, seeing and comparing changes in water levels and temperatures in real-time. They also learn to be water-wise citizens as they gain a better understanding of the impacts of pollution and population on their watershed.

“The Provo Watershed exhibit has been a great resource to teach kids about how different properties of water affect the wildlife,” said Meagan Grasley, an educator at the Bean Museum. “Children have loved looking at the different wildlife that live at each part of the watershed. Overall, it has brought more awareness to the patrons of their local ecosystem.”

This interactive display at the Bean Museum is just one of the many examples of legacy products that will be available for research and education long after the iUTAH project ends in July 2018.

Visitors at the Bean Museum can now connect with their local watershed through an interactive display showing iUTAH’s GAMUT data in real-time Credit: Bean Life Sciences Museum

This material is based upon work supported by the National Science Foundation, funded through OIA – 1208732. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation. Web services provided by the Utah Education Network | Web Accessibility | Terms of Use in partnership with Utah EPSCoR.